Rod-cone interaction under mesopic illumination. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency and traffic lighting conditions. Approximately 45% of all Australian traffic fatalities occur under dim light. The research program uses a frontier technology to determine how vision is degraded under dim lighting and provide accurate parameters to better design mesopic lighting environments to maximize visual function and perform ....Rod-cone interaction under mesopic illumination. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency and traffic lighting conditions. Approximately 45% of all Australian traffic fatalities occur under dim light. The research program uses a frontier technology to determine how vision is degraded under dim lighting and provide accurate parameters to better design mesopic lighting environments to maximize visual function and performance. This work will help to evaluate new energy-efficient lighting systems and optimise traffic lighting for early recognition of obstacles and dangerous situations. Read moreRead less
Psychophysical Assessment of Receptoral and Post-Receptoral Visual Function. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency lighting and road traffic lighting conditions. Approximately 45% of all Australian road traffic fatalities occur under dim lighting conditions. My data will be unique, as it will provide accurate parameters to better design mesopic lighting environments to maximize visual function and performance. This ....Psychophysical Assessment of Receptoral and Post-Receptoral Visual Function. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency lighting and road traffic lighting conditions. Approximately 45% of all Australian road traffic fatalities occur under dim lighting conditions. My data will be unique, as it will provide accurate parameters to better design mesopic lighting environments to maximize visual function and performance. This work will help to optimise road traffic lighting for the early recognition of obstacles and dangerous situations. The research program will make important scientific contributions to understanding human visual function and performance at dim light levels.Read moreRead less
Development of a photoelectrochemical system based on Titanium dioxide nanotubes/boron doped diamond heterojunction for online water quality monitoring. The reuse of purified recycled wastewater (PRW) creates an additional water supply source and improves the sustainability of the overall water resources. This calls for online water quality monitoring systems to prevent potential water quality risk from organic contaminants in PRW and enable industries and government bodies to monitor and manage ....Development of a photoelectrochemical system based on Titanium dioxide nanotubes/boron doped diamond heterojunction for online water quality monitoring. The reuse of purified recycled wastewater (PRW) creates an additional water supply source and improves the sustainability of the overall water resources. This calls for online water quality monitoring systems to prevent potential water quality risk from organic contaminants in PRW and enable industries and government bodies to monitor and manage our water resources effectively. The success of the project would lead to a robust and reliable environmental monitoring system capable of online, real-time monitoring of organic pollutants and toxins, which will transform the existing water quality monitoring technology and directly benefit water resource management practice in Australia.Read moreRead less
Structure-Activity Relationships in Silicon-based Photovoltaics Through Atomic Scale Microscopy. This project aims to develop new design principles for silicon-based photovoltaics (PVs) through a comprehensive study of atomic-scale structures and phenomena in PV materials. The development of more efficient photovoltaic materials is of major global importance, given the pressing need for clean and renewable sources of energy. Australia has international leadership in developing solar cell technol ....Structure-Activity Relationships in Silicon-based Photovoltaics Through Atomic Scale Microscopy. This project aims to develop new design principles for silicon-based photovoltaics (PVs) through a comprehensive study of atomic-scale structures and phenomena in PV materials. The development of more efficient photovoltaic materials is of major global importance, given the pressing need for clean and renewable sources of energy. Australia has international leadership in developing solar cell technologies, and the ideal natural environment to exploit these technologies. The fundamental insights derived in this project, such as detailed 3D maps of dopant distributions at the atomic scale, will bolster Australia's international reputation in the field and provide better control in the design of PV devices. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453879
Funder
Australian Research Council
Funding Amount
$184,163.00
Summary
Electron beam induced deposition and ablation nanofabrication facility. Electron beam induced deposition and ablation(EBIDA) is rapidly emerging as a new technology capable of fabricating three-dimensional nanostructures on nearly any substrate with very high precision. This proposal aims to establish a nanoscale EBIDA facility by integrating a specialized nanolithography attachment with an existing state-of-the-art 1nm resolution high current variable pressure scanning electron microscope. This ....Electron beam induced deposition and ablation nanofabrication facility. Electron beam induced deposition and ablation(EBIDA) is rapidly emerging as a new technology capable of fabricating three-dimensional nanostructures on nearly any substrate with very high precision. This proposal aims to establish a nanoscale EBIDA facility by integrating a specialized nanolithography attachment with an existing state-of-the-art 1nm resolution high current variable pressure scanning electron microscope. This combination of instrumentation will enable the high-speed production of conductive and insulating structures with 1-to-10nm dimensions. The unique facility will be used to manufacture and prototype novel nanoscale devices and structures and will enable measurement of their physical and chemical properties.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882347
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
High field magnet for materials processing and characterisation. The proposed infrastructure project will bring many Australian-based researchers together to create a completely new niche of materials processing research. Such a facility will be the first of its kind in Australia. This facility will be located in Australia and thus the time required to process and characterize materials will be significantly reduced without a need to send them overseas. As a consequence of the proposed collabora ....High field magnet for materials processing and characterisation. The proposed infrastructure project will bring many Australian-based researchers together to create a completely new niche of materials processing research. Such a facility will be the first of its kind in Australia. This facility will be located in Australia and thus the time required to process and characterize materials will be significantly reduced without a need to send them overseas. As a consequence of the proposed collaboration, a large number of high quality papers and patents are expected. The facility will increase Australia's position in the field of advanced materials processing and will also provide new ideas and concepts, which will be used in practical applications.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347937
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Imaging Raman Spectrometer. An Imaging Raman spectrometer generates image maps 10x faster than older instruments and is required to meet escalating demand. This results from innovative use of Raman to characterise organics, polymers, thin films and biomaterials, which underpins rapidly evolving research in nanotechnology and biotechnology. Many innovations have come from QUT's Centre for Instrumental and Developmental Chemistry, which will host the spectrometer and is a key resource for all Qu ....Imaging Raman Spectrometer. An Imaging Raman spectrometer generates image maps 10x faster than older instruments and is required to meet escalating demand. This results from innovative use of Raman to characterise organics, polymers, thin films and biomaterials, which underpins rapidly evolving research in nanotechnology and biotechnology. Many innovations have come from QUT's Centre for Instrumental and Developmental Chemistry, which will host the spectrometer and is a key resource for all Queensland universities. The availability of its high quality spectroscopic facility has enabled leading edge developments by local companies and the Imaging Raman spectrometer will significantly accelerate and enhance current and future project outcomes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560818
Funder
Australian Research Council
Funding Amount
$154,000.00
Summary
A Pico-Newton Scale Force Measurement Apparatus for Polymer Physics and Non-equilibrium Statistical Mechanics. We propose to build a state-of-the-art Optical Tweezers apparatus that measures small forces and torques on micron-sized objects located in 'optical traps'. Using a single laser beam and computer-generated holograms, we will create arrays of optical traps that move or 'dance', and alter the force/torque-imposing properties of each trap. This proposed research equipment will be used (1 ....A Pico-Newton Scale Force Measurement Apparatus for Polymer Physics and Non-equilibrium Statistical Mechanics. We propose to build a state-of-the-art Optical Tweezers apparatus that measures small forces and torques on micron-sized objects located in 'optical traps'. Using a single laser beam and computer-generated holograms, we will create arrays of optical traps that move or 'dance', and alter the force/torque-imposing properties of each trap. This proposed research equipment will be used (1) to study the physics of single synthetic polymer and naturally occuring biopolymer chains, (2) to quantify experimentally, and for the first time, newly predicted molecular-scale forces, and (3) to demonstrate new theories in non-equilibrium statistical mechanics that quantitatively describe the operation of nanomachines. Read moreRead less
Exploring the Dynamics of Nanostructure Self-Organisation during Compound Semiconductor Epitaxy. The application of LEEM to GaAs and InAs will be a world first, positioning Australia at the forefront of nanoscale self-organisation, leading to important international recognition and publicity. The spectacular movies obtained will revolutionise our basic understanding of compound semiconductor self-organisation and facilitate an improved control over nanostructure fabrication using MBE. This will ....Exploring the Dynamics of Nanostructure Self-Organisation during Compound Semiconductor Epitaxy. The application of LEEM to GaAs and InAs will be a world first, positioning Australia at the forefront of nanoscale self-organisation, leading to important international recognition and publicity. The spectacular movies obtained will revolutionise our basic understanding of compound semiconductor self-organisation and facilitate an improved control over nanostructure fabrication using MBE. This will generate entirely new device structures relevant to the frontier technologies of photonics and quantum information processing. The project will provide high level training for post-graduate and honours students in nanoscale characterisation and synchrotron science.Read moreRead less
Superconducting MgB2 thin films and structures for electronic devices and telecommunication applications. Two important directions of electronic application for MgB2 films are superconducting Josephson junction (JJ) technology and passive microwave devices. Superconducting JJ technology will have a small but important niche in high-performance digital signal and data processing applications for civilian, commercial, and military terrestrial, as well as space deployment. With superconducting pass ....Superconducting MgB2 thin films and structures for electronic devices and telecommunication applications. Two important directions of electronic application for MgB2 films are superconducting Josephson junction (JJ) technology and passive microwave devices. Superconducting JJ technology will have a small but important niche in high-performance digital signal and data processing applications for civilian, commercial, and military terrestrial, as well as space deployment. With superconducting passive microwave devices, the potentially largest market in this segment are filter systems for ground- or satellite based wireless communication systems. The research outcome could support Australian companies to develop corresponding products, as well as broaden Australia's knowledge of the physics of the new MgB2 superconductor.Read moreRead less